In this paper, a study of quality monitoring technology for the laser welding was conducted. The laser welding and the industrial robotic systems were used with robot-based laser welding systems. The laser system used in this study was 1.6kW fiber laser, while the robot system was Industrial robot (payload : 130kg). The robot-based laser welding system was equipped with a laser scanner system for remote laser welding. The welding joints of steel plate and steel plate coated with zinc were butt and lapped joints. The remote laser welding system with laser scanner system is used to increase the processing speed and to improve the efficiency of processes. The welding joints of steel plate and steel plate coated with zinc were butt and lapped joints. The quality testing of the laser welding was conducted by observing the shape of the beads on the plate and the cross-section of the welded parts, analyzing the results of mechanical tension test, and monitoring the plasma intensity by using UV and IR sensor. This paper proposes the quality monitoring method and the robot-based remote laser welding system as a means of resolving the limited welding speed and accuracy of conventional laser welding systems.
[1]
Ronald G.K.M. Aarts,et al.
Robot-sensor synchronization for real-time seamtracking in robotic laser welding
,
2005
.
[2]
Hyo-Jik Lee,et al.
The assessment of remote accessibility for processing equipment using the graphic simulator
,
2012,
2012 12th International Conference on Control, Automation and Systems.
[3]
Hyun Min Do,et al.
Study on the requirements of joint torque sensors considering mechanical condition of the joint mechanism of a manipulator
,
2012,
2012 12th International Conference on Control, Automation and Systems.
[4]
P. Aubry,et al.
2D YAG welding on non-linear trajectories with 3D camera seam tracker following for automotive applications
,
2000
.
[5]
P. Aubry,et al.
A rapid seam tracking device for YAG and CO2 high speed Laser Welding
,
1998
.